摘要
本文利用高角环形暗场像(HAADF)和衍衬像研究了K0.8Fe1.7SeS超导样品的超导畴区形貌及三维分布。在[001]带轴下观察到两类形貌的超导畴区,一类畴区尺寸为1μm左右,另一类为由几十纳米大小的小畴区组成的阵列。选区电子衍射和电子能量损失谱结果表明母体区对应Fe空位有序,而超导畴区可能对应K空位有序。STEM-EDS元素Mapping表明超导畴区边缘处K元素含量较多,K0.8Fe1.7SeS超导样品中可能至少存在三个相,分别为:K空位有序超导相、畴区外部Fe空位有序基体相以及两种空位有序区的过渡相。在[100]带轴下观察到了超导畴区具有连通性,构建了K0.8Fe1.7SeS超导样品中超导畴区的三维分布图。
High-angle aunular dark-field (HAADF) imaging and dark-field imaging technologies were employed to study the superconducting domain morphology and its distribution in three dimensions. Two types of domain morphologes are idenfied along the [001] direction: one is the domain with size of about 1 μm; the other is the array of small domain with size of tens of nanometers. Selected area electron diffraction and electron energy-loss spectroscopy indicate that the parent regions correspond to the Fe-vaccany ordering while the superconduting domains may correspond to the K-vacancy ordering. STEM-EDX Mapping experiment shows a K-rich distribution near the boundary of the domains, indicating that there are at least three phases in K0.8 Fe1.7 SeS sample. In addition, observations along the [ 100] direction reveal that the domains are connected, providing the direct evidence for the connectivity of superconducting domains. At last, the shematic of the three-dimensional distribution of domains is established.
出处
《电子显微学报》
CAS
CSCD
2013年第6期467-473,共7页
Journal of Chinese Electron Microscopy Society
基金
国家自然科学基金(51372027)
国家重点基础研究发展计划(2014CB921002)
国家科学基金重点项目(90923037)
